Totalizer engagement control device



June 7, 1938. E. BREITLING TOTALIZER ENGAGEMENT CONTROL DEVICE Filed June 13, 1935 5 Sheets-Sheet 1 lnventor (Ittorneg June 7, 1938. E. BREITLING TOTALiZER ENGAGEMENT CONTROL DEVICE Filed June 15, 1935 5 Sheets-Sheet 2 Bnnentot 1,}, (Ittorneg June 7, 1938. BREITLING 2,119,841

TOTALIZER ENGAGEMENT CONTROL DEVICE Filed June 15, 1935 5 Sheets-Sheet 3 Fig. 3.

Snnentor A L 4, (Ittorneg June'7, 1938. E. BREITLING TOTALIZER ENGAGEMENT CONTROL DEVICE Filed June 13, 1935 5 Sheets-Sheet 4 H (Ittorneg June 7, 1938.

E. BREITLING TOTALIZER ENGAGEMENT CONTROL DEVICE 5 Sheets-Sheet 5 Filed June 13, 1935 Q igtk Inventor Patented June 7, 1938 Ernst Breitling, Berlin-Tempelhof, Germany, assignor to The National Cash Register Company, Dayton, Ohio, land Application June 13, In Germany 12 Claims.

The invention relates to totalizer engagement control device, especially provided with several rows of totalizers and, more particularly, to a totalizer engaging control device operated by a 5 mode of operation lever, by means 01' which device the totalizers are brought into engagement with the amount difierentials at the proper times in accordance with the mode of operation of the machine.

The main object of the invention is to minimize the number of elements of such totalizer engaging control device.

Another object is to adapt a single element in such a way that the proper timing is eflected by its mere adjustment.

Another object of the invention is to adapt a gagement at the proper time for all the modes of operation.

Another object of the invention is to provide 1 for the proper adjustment of the single cam disk for varying the timing of the engagement.

Another object of the invention consists in the means for connecting the mode of operation lever with the engaging control disk.

Further objects of theinvention will be pointed erence to the annexed drawings.

The accompanying drawings show two preferred embodiments of the invention.

f said drawings:

Fig. 1 is a cross section of the machine along an amount key bank in side view.

Fig. 2 is a side view of the totalizer selecting and engaging device and its. actuating member,

Fig. 3 is a section along line AB of Fig. 2,

Figs. 4 to 6 show thepositions of the actuating member for the engaging device according to the' difierent modes of operation,

Figs. 7 to 9 illustrate in top view a modification of the actuating .member in itsadjustment for adding, total and subtotal taking.

General description In general terms the invention has for its object to effect diflerent modes of operations (addition, total and subtotal taking) in cash registers, accounting and computing machines, wherein the totalizers have to be connected at diflerent times with the amount diilerential devices. machines the totalizers have to be engaged with the actuating members of the differential devices for adding operations before the actuating mem- 5 bers start to return into normal position. For

single cam disk for controlling the totalizer enout in the following detailed description with ref- In known a corporation 0! Mary- 1935, Serial No. 26,371 June 22, 1934 total taking, however, the totalizers have to be engaged with the actuating members before the latter start outof zero position, and be disengaged before starting their return movement.

For a subtotal taking operation, however, the totalizers have to be engaged with the actuating members before the same are moved out of zero position and disengaged therefrom after the actuating members have returned to their normal position.

In order to effect the engagement of the totalizers with the amount diflerential devices at such difierent times, it is known to connect the engaging disk, with which the selected totalizer or totalizers are coupled, with several" actuating means. There are usually as many different actuating means as there are difierent modes of operations to be carried out.

It has heretofore been known to reduce the number of actuating means, i. e., for instance, of cam disks for three modes of operation to two, each of the two cam disks being provided with curved grooves of different depth, and by co operation of the flat portions 01 grooves of the two cam disks the third mode of operation is determined (U. S. Patent 1,898,346 to H. C.

Dieserud).

According to the present invention, the number of the actuating means necessary for the different modes of operation'fis, further reduced by the arrangement of a single controlling means for the various modes oi. operation and the provision of it with operative elements which when properly adjusted, will vary the timing of engagement o! the selected totalizer.

Amount diflerentials Each amount key bank, ll (Fig. 1) has allotted thereto an amount diflerential device of a 'struc ture similar to that shown and described in my copending patent application, Serial No. 758,069 filed December 18, 1934, Patent No. 2,116,779, issued May 10, 1938.

The shaft l2 oscillating during each machine operation first in clockwise direction and, then,

back into its rest position, has secured thereto two arms I 3 carrying a cross rod [4. shaft I! has mounted thereon also a main setting member ll having an arc-slot It for the rod M to be moved therein. To each main setting The said member I! is attached a spring I'I tending to The main setting member is provided on the one side with a bent over projection l9 engaging, when the machine is in rest position, a zero stop pawl pivoted on a stationary pin 2| of the key bank. Under the action of a spring 22, the zero stop pawl 20 bears against a pin23 of a detent 26 guided on stationary studs 24 and 25 of the key bank. If a key M is depressed, its pin 2'! enters the corresponding inclined slot 28 of the detent 26 and moves the latter upward against the action of its spring 29. The pin 23 partaking in this movement, rocks the zero stop wall 20, against the action of its spring 222, in clockwise direction out of the path of the bent over projection it. The main. setting member H5 is also provided with a toothed segment 35 and further teeth 35'.

Adjacent to each setting member Hi there is rotatably arranged a toothed auxiliary setting member 36 the toothed segment of which is of a radius equalling the one of the main setting member I 5, in mesh with a gear 32. By means of a tube 33 slipped on over a shaft ill, each gear 32 is connected with a type wheel 3 1. Each aux again by the cam disks dd.

iliary setting member 36 has on its left hand end a nose 45 hearing on the cross rod i k On a cross rod 3'! in each denominational order a coupling pinion 36 is rotatably mounted to be brought into mesh simultaneously with the two toothed segments of the setting members, The cross rod 3'! is carried by two arms 3t rotatably mounted on a shaft ll (only one arm is shown). Each of the two arms 38 has an extension dil provided with a roller 39 guided in a curved groove 42 of cam disks 4 secured to a shaft 63.

The difierential device operates as follows:

Assumed, an amount key 0 i has been depressed and, thereby, the zero stop pawl 2d moved out of the path of the bent over portion it of the main setting member l5. During the following machine operation the shaft 62 with the arms i3 and the cross rod !4 is rocked first in clockwise direction. In so doing, the springs ll cause the main setting members IE to follow the said shaft till the bent over portions is of the said members meet the feet of the depressed amount keys M which prevent thereby the continued movement of the main setting member i5. At the same time, the cross rod id rocking clockwisely, carries along by means of the noses 55 the auxiliary setting members 30 and resets, by the parts 32 and 33, the type wheels to zero position. When the auxiliary setting members are in their zero positions, that is, when the cross rod M has stopped its'rotation in clockwise direction, the cam disks 44 are rendered effective and engage the coupling pinions 36 with the toothed segments 35 of the main setting members 05 set according to the depressed keys [I i, and with the toothed segments of the auxiliary setting members Bil. Then, the cross rod M returns in counter-clockwise direction. When the said rod meets the end edges l8 of the arc-slots it of the setting members l5, it carries them along to zero position. Due to the main setting members l5 and the auxiliary setting members Bil being coupled together, the latter are displaced from zero position by a number of steps commensurate with the depressed keys H. As a consequence thereof, the type wheels 34 are set to the amount corresponding to the value of ,the keys Ii l depressed. When the setting members id have regained their rest positions, the coupling pinions 36 are disenga totalizer shaft 50.

Totalizers The adding wheels 50 of each of the four totalizers which are of well known art and thus not described in detail, are rotatably mounted on a shaft 5| supported by a frame formed by two arms 53 secured to a shaft 52. By means of spring depressed pawls 54 the adding wheels 50 are yieldlngly held in their respective positions. Each adding wheel 50 has, further, allotted thereto a special tens transfer tooth 55.

The toothed segment 35 of each main setting member I5 meshes with a gear 41 rotatably mounted on shaft it. Each gear ll engages four intermediate wheels 49 rotatably mounted on shafts Q 8, and enabled to be engaged by the adding wheels JG of four totalizers as shown in Fig. l.

Totalz'zer selection The four totaliaers provided in the machine, are adapted to be selected by means of totalizer selecting keys 56 to 59 (Fig. 2). Four detents Gd-fit are arranged in the special key bank, which in their shapes are essentially the same and which are provided each with a slope opposite the respective key 56 to Each of the keys 56 to 5% can displace one of the detents to 63. Each of the four detents 6G to 63 is connected by means of a link St, to one of four levers til rockably arranged on a shaft 463 (see also Fig. 3). Each of these levers 65, is connected by means of a link 66, with an arm arranged on a stub shaft Bl. The shaft iii? is supported by two arms 69 each, fastened upon one of the four shafts 52. A spring it is tending to keep the arm [ii in contact with a stationary pin iii. The two frame arms 53 supporting each of the four totalizer shafts 5B are mounted upon every shaft as already mentioned.

Each arm 68 is connected by a sleeve it with an arm 13, the pin M of which can enter a recess it of an engaging disk iii. The totalizer engaging disk 16 is-rockably arranged on the shaft 46 and is connected to a pitman bifurcated to straddle a shaft 89. The roller E8 of the pitman T? is guided in the cam groove id of a cam disk Bil.

When one of the totalizer selecting keys 56 to 59 is depressed, the coupling pin M- of the totalizer corresponding to the depressed key, is forced by means of the specified linkage into the proper recess 15 of the engaging disk "56. The engagement is secured'by means of a spring 8i acting upon the arm 13.

Totalizer engaging device In order to engage the totalizer with the amount difierential device, the disk it is clockwisely rocked by means of the cam disk 80. Thereby the shaft 52 coupled with the disk 16 is rocked together with the supporting arms 53 of the The cam disk 8!) drives the engaging disk 16 for all modes of operation, 1. e., for adding, total and subtotal taking. To that effect, it has to be set accordingly before starting a machine operation when the mode of operation is varied. This is done by means of a mode of operation lever 32.

The mode of operation lever 32 is rockably mounted upon the shaft i2, and can be set to one of the three positions Add, Subtotal and Total. A toothed segment 83 connected with the mode of operation lever 82 engages a toothed segment 8%, rotatably arranged on a sleeve 85 (Fig. 3) fastened to shaft 86. A gear 8i connected with the toothed segment 84 engages teeth 88 of a double toothed gear 88, the second toothing 88 of which meshes with a gear II. The gear 8I is connected with the sleeve 88 secured ontothe drive shaft 88. The double toothed gear 88 is rotatably arranged on a stud 82 of the cam disk 88 rotatable on the shaft 88.

The curved groove I8 of the disk 88, in which the roller I8 oi the pitman I1 is guided, is shaped in such a way that, in each machine operation, a

- reciprocating movement is imparted to the pitman II and thereby to the engaging disk I8,

whereby each time a totalizer coupled with the engaging disk 18 is brought in engagement with the amount differential device.

In order to enable the movements of the engaging disk I8 at the times corresponding to the different modes of operation, the cam disk 88, at every change of the mode of operation is set in advance by means of the mode of operation lever 82, so that the eflective points of the curved groove I8 are adjusted to a diiferent distance from the roller I8.

After a totalizer has been selected by depressing one of the totalizer selecting keys, and the coupling pin I4 corresponding to it has been brought into the opposite recess I8 oi. the disk I8, the shaft 88, during the machine operation, is going through a full cycle of counter-clockwise rotation, which by means of the gear 8I is transmitted in the form of clockwise rotation to the double-toothed gear 88. As the mode of operation lever 82 remains inoperative during the machine operation, the double-toothed gear 88 rolls on the gear 81, whereby the cam disk 88 receives a clockwise rotation.

Disengaging the zero stop pawls during total taking actions regardless whether a subtotal or a total is taken, no amount key is depressed, the zero stop pawls 28 have to be brought into ineffective position in another manner. For this purpose, a stationary cross rod 88 (Fig. 1) has rotatably mounted thereon bell crank levers 84, each one thereof having a pin 88 bearing under the action of a shaft 88. When the members are positioned as shown in Fig. 1 which position corresponds to'the setting of the mode of operation lever 82 to "Add", a cam oi. the control disk 81 is above the pin 88. The nearly vertical arm of the bell crank lever 84 has a shouldered end engaging a pin 88 of the zero stop pawl 28.

The shaft 88 has secured thereto a segment gear I88 (Fig. 2) in mesh with a segment gear I8I connected to the mode of operation lever 82.

clockwise and thereby removed from the add position, the segment gear I88 together with the shaft 88 and the control disks 81, is rotated counter-clockwise by the, segment gear I8I. Thereby the cams of the control disks 81 are moved out of the path of the pins 88 so that the springs 88 become eifective As the springs 88 are stronger than springs 22 fdr the zero stop pawls 28,,the bell crank levers 84 move, by means path of the projections I8 oi the main setting members l8. a

' Subtotal mend The only operative portion of" the cam groove 18 of the cam disk 88 is shaped so as to meet the Since in connection with a total taking action,

spring 88 against a control disk 81 secured to a.

When the mode of operation lever 82 is moved of the pins 88, the zero stop pawls 28 out ofthe conditions in connection with a subtotal taking action, being the action of longest duration of engagement. Therefore, this action will be described flrstz- To take a subtotal, the mode of operation lever 82 has to be moved into the position shown in Fig. 2. Thereby, over the beforementioned gearing 88 to 8|, the cam disk 88 is so adjusted (Figs. 2 and 5) that the roller I8 remains within the portion 18a of greater diameter of the cam groove I8 while the cam portion 18b leading to the cam portion 18c of minor diameter, lies directly beneath the roller I8. If, now, after the machine operation is initiated, the cam disk 88 is clockwisely rotated as mentioned, the pitman II is moved to the right by means of the cam portion 18b acting on the roller I8, immediately after the beginning of the machine operation, and the engaging disk I8 is rocked in clockwise direction. Thereby the disk I8, by means of the pin I4 engaging one of the recesses I5, carries along the respective arm I8, and rocks in counterclockwise direction one of the shafts 82 to engage the adding wheels 88 of the respective totalizer with the intermediate wheels 48. Thereupon the cross rods I4 and the setting members I8 start their clockwise movement, and, over the gears 41 and the intermediate wheels 48, rotate the adding wheels 88 in counter-clockwise rotation till the tens carrying teeth 88 connected therewith, meet the front edges of pawls I82 thus being prevented to continue their movement.

The pawls 182 are rotatably mounted on a cross rod I88 supported by arms 83, and urged by springs I84 secured to a rod I88 carried by said arms 88 to remain in the path of the tens carrying teeth 88. When an adding wheel 88 is clockwisely rotated, the pawl I82 is able to pass the tens carrying tooth 58. If, however, during a counter-clockwise rotation of an adding wheel 88, a tens carrying tooth 88 has been arrested by a pawl I82, also the respective intermediate wheel 48, the gear." and the main setting member I8 are prevented from being moved further. The setting member I8 is, thereby, prevented from following the cross rod I4 completing its clockwise rocking movement and restoring the auxiliary setting member 88 to zero position. Thereby, however, the member I8 is set in accordance with the value represented by the respective adding wheel 88 set.

Before the cross rod I4 starts its counter-clockwise movement into rest position, as already mentioned, the coupling pinions 38 are engaged. Thereupon, by means of the cross rods, the main setting members I8 are restored and, at the same time, the auxiliary members 88 are moved out of their zero positions by a number of steps corresponding to the adjustment of the main setting members l8. Due to this, the type wheels 84 are set to the amount formerly standing on the engaged totalizer. While the main setting'members I8 are restored to zero position, the adding wheels 88 of the engaged totalizer are held in engagement with the intermediate wheels 48 by means of the portion I81; oi the cam disk 88. Thus, they are, again, clockwisely rotated to the same extent, they have been rotated in counterclockwise direction during the first part of the machine operation. Thereby, however, the amount taken oil? the adding wheels 58, is retransferred to them.

After all the members I8 are restored to the rest position, the cam portion 18d of the cam groove I8 becomes eilfective, moves, over the tion. Thereby the totalizer is disengaged from the intermediate wheels 48, and by means of the portion 19a of the groove, held in disengaged position during the remainder of the machine operation.

Adding action For an adding action the cam disk 80 is adiusted by the means 88 to 82 so that its cam groove I9 becomes positioned opposite the roller I8 as shown in Fig. 4. In this case the portion 18d of the cam groove I9. is near the roller I8 so that when the cam disk 80 rotates clockwisely, the totalizer coupled with the engaging disk I8 is, initially, held out of mesh with the intermediate gears 49 during a greater part of the machine operation. Only after, inthe beforementioned manner, the main setting members I5 have been advanced to the feet of the depressed keys II, and the coupling pinions 36 brought into effective position, the cam portion 19b becomes effective which portion brings the adding wheels 50 and the intermediate wheels 49 into engagement. While the differential members I5 are restored, the engaged adding wheels 50 are clockwisely advanced by a number of units corresponding to the value represented by the depressed keys. At the end of the machine operation, the cam portion 18d becomes effective and moves the roller I8 back into the cam groove portion 18a, whereby the adding wheels 50 are disengaged again.

Total taking For a total taking action the cam disk 80 is adjusted ,so that its cam groove I8 is positioned opposite the roller" as shown in Fig. 6-. In this case, with the machine in rest position, the roller I8 is moved into-the cam groove portion 19c only by means of displacing .the mode of operation lever 82. Thereby the pitman TI is moved to the right, the engaging disk I6 is rocked in clockwise direction and the selected totalizer is engaged with the intermediate gears 48 already before the machine operation is started.

This requires that the totalizer to be reset is selected before displacing the mode of operation lever by means of depressing one of the keys 56 to 58. A particular locking means (see Fig. 2) prevents, therefore, the mode of operation lever 82 from being set to total taking position, before one ofijthe keys 58 to 58 has been depressed. The bent over portion I08 of an arm I08 rotatably arranged on a stationary pin I0'I embraces from behind a pin I05 of the mode of operation lever 82, which arm I08 is connected with a second arm 0 by means of a sleeve I09. A bent over portion of the arm H0 is moved under the action of a spring III into the path of projections II3 of the detents to 83. When one of the keys 56 to 58 is depressed and thereby one of the detents 60 to 83 is moved upwardly, its projection H3 rocks the arm IIO clockwise and the arm I08 connected therewith, and removes thereby the bent over portion I00 out of the path of the pin I05. Only now the mode of .operation lever 82 can be set to total taking position.

Thus, when a totalizer coupled with the engaging disk I0, is in mesh with the intermediate gears 49, upon adjusting the mode of operation lever 82 to the total taking position, and, when now a machine operation is initiated, first the same actions take place as described in connection with the first part of a subtotal taking action. That is, the adding wheels 50 are rotated counterposition, needed when a cam disk formed as clockwise till their tens carrying teeth 55 are arrested by the pawls I02. When the cross rod I4 has restored the auxiliary setting members 30 to their zero positions, the adding wheels 50 are disengaged from the intermediate wheels 49 by the cam groove portion 19d of the cam disk 80. While the difierential members I5 are restored to zero position, only the type wheels 34 are set in accordance with the amount set up previously on the adding wheels 50, the adding wheels 50 remaining at zero.

After the main setting members I5 are completely restored, the portion 19b of the cam groove again brings the adding wheels of the selected totalizer and the intermediate wheels 49 into engagement. This engaging movement, however, does not affect the state of the totalizer as the amount differentials have already completed their operations.

Thus it becomes evident that at the end of the machine operation, at the same point as at the beginning of the machine operation, the totalizer set to zero is engagd again with the amount diil'erential devices. When, therefore, in a subsequent machine operation, a second totalizer is to be reset, the mode of operation lever must be restored to subtotal taking position, so that the totalizer already reset can be disengaged, and a new one can be engaged. Suitably, this restoring from total taking to subtotal taking position can be carried out automatically in any known manner, 1. e., the mode 'of operation lever will be reset near the end of the machine operation, before the depressed totalizer selecting key I is released, so that also the locking arm. I08 can regain its operative position.

Modification of the cam disk The additional mechanisms including the interlock I05I05 and the means for automatically restoring the mode of operation lever to sub-total just described, is used, can be dispensed with when the cam groove I9 is shaped as shown in Figs. 7 to 9. The modification differs materially from the disk set forth primarily, in that the cam groove portion 180 of minor radius is divided Into two portions I and I90 by means of cam portion He. The said cam portion 18c disengages, i. e., during a subtotal taking action (Fig. 9) temporarily the adding wheels 50 after they have been restored, and engages them again with the intermediate wheels 48 before the cross rod I4 starts its counter-clockwise rocking. This movement'is merely an idle one and does not affect the further course of the actions. During an adding operation- (Fig. 7) the cam portion 18c disengages temporarily the adding wheels 50, after-the main setting members I5 are again in normal positions. tion the movement caused by the cam 19c does not afiect the further actions. During a total taking action (Fig. 8) the cam portion I9e,'however, with the machine in rest position, acts upon the roller I0. Thus, it holds the adding wheels 50, with the machine in rest position, out of engagement with the intermediate wheels 48. Therefore, it 'is' of no importance whether the totalizer to be reset, is first selected by means of one of the keys 55 to 58, and then the mode of operation lever 82 is set to total taking, or 7 Also in this mode of operataking action, the individual actions are not affected by the special movement caused by the cam lle.

While the form of mechanism herein shown and described, is admirably adapted to fulflll the objects primarily stated, it is to be understood that it is not intended to confine the invention to the embodiments hereindisclosed, for it is susceptible of embodiment in various otherforms all coming withinthe scope of the claims which follow.

What is claimed as new is:

1. In a machine of the class described, the combination of a totalizer, actuators therefor, a cam having a single cam groove, means to operate the cam during a machine operation, totalizer engaging means actuated by the cam groove to engage the totalizer with the actuators and disengage the totalizer from-the actuators, and means to adJust said cam prior to a machine operation, whereby the timing of engagement and disengagement of the totalizer is varied for different operations of the machine.

2. In a machine of the class described capable of adding, subtotal taking, and reset total taking operations, the combination of a totalizer, actuators therefor, a drive shaft, a cam on the drive shaft, totalizer engaging means operated by the cam to engage and disengage the totalizer with and from the actuators, and means to rotate the cam on the drive shaft prior to a machine operation to selectively cause the time of engagement and disengagement of the totalizer to vary for each of said operations.

3. In a machine of the class described, the combination of a totalizer, actuators therefor, a. rotatably mounted cam, means actuated by the cam to engage and disengage the totalizer with and from the actuators, a manipulative device to condition the machine for add, sub-total, and reset operations, a planetary gear connection between the manipulative device and the cam whereby the cam is rotated a different extent, by the manipulative device when the manipulative device is set to condition the machine, for each of said operations prior to the machine operation, and means operating through said planetary gear connection to rotate the cam a complete revolution during every machine operation.

4. In a machine of the class described, the combination of a totalizer, actuators therefor, a

. rotatably mounted cam, totalizer engaging means operated by said cam to engage and disengage the totalizer with and from the actuators, a manipulative device to condition the-machine for add, sub-total, and reset operations, a planetary gear connection between the manipulative device and the cam whereby the cam is rotated different extents by the manipulative device when the manipulative device is set to condition the machine for said operations prior to the machine operation, and means operable through said planetary gear connection to .rotate the cam one' complete revolution during the machine opera tion from the position to which the cam is rotated by the manipulative device.

5. In a machine of the class described, the comhination of a totalizer, actuators therefor, a single cam having a single cam groove to engage and disengage the totalizer with and from the actuators, a manipulative device, connections operated by the manipulative device to adjust the cam be-- fore a machine operation, and means including certain elements of said connections to rotate the cam a completecycle during the machine operation from the position to which it was adjusted by the manipulative device to control the engagement and disengagement oi the totalizer according to the position of the manipulative device.

6. In a machine of the class described, the combination of a totalizer, actuators therefor, driving mechanism for the machine, a manipulative device, connections operated by the manipulative device, and totalizer engaging mechanism including an element adjustable to a plurality of initial positions by said connections and thereafter operable by the driving mechanism during an operation of the machine, said element when moved to one of said initial positions causing the totalizer to directly engage with the actuators .and when moved to another of its initial positions causing the totalizer to be engaged during the machine operation. I

7. In a machine of the class described, the combination of a drive shaft, a cam on the drive shaft, a. manipulative device, planetary gear connections between the manipulative device and the cam whereby the cam may be rotated by the manipulative device prior to a machine operation to change the effective timing of the cam during a machine operation, and means operable through the planetary gear connection to rotate the cam one complete rotation, from the position in which it is set by the manipulative device, during the machine operation.

8. In a machine of the class described capable of performing adding, subtotal taking, and reset total taking operations, the combination of differential actuators; a totalizer; means to engage the totalizer with the actuators; a single cam adapted to operate the totalizer engaging means in adding, subtotal taking, and reset total taking timing; means to rotate the cam during a machine operation: and a manipulative means operatively connected with the last named means while the machine is at rest for rotatably adjusting the cam on its axis prior to a machine operation, whereby the totalizer engaging means may be selectively operated in any one of said timings during a machine operation.

9. In a machine of the class described capable of performing adding, subtotal taking, and reset total taking operations, the combination of differential actuators; a totalizer; means to engage the totalizer with the actuators; a single adjustable cam havinga single cam groove for operating the totalizer engaging means in adding, subtotal taking, and reset total taking timing; means to give the cam a complete revolution during each of said operations; and a'manipulative device connected to the last named means for rotatably adjusting the cam on its axis prior to a machine operation, 'to cause the cam to operate nected with the rotating means for adjusting the cam on its axis previously to a machine operation to control the time of operation of the totalizer engaging means during said revolution.

11. In a machine of the class described capable engaging means in adding, subtotal taking, and

resettotal taking timings; means to rotate the cam a complete revolution during every machine operation; and a manipulative device connected to the means to rotate the cm to adjust the cam on its axis beiore a machine operation to selectively control the elective timing of the cam.

12. A totalizer engagement control device for cash registers, accounting and the like machines consisting of a single adiustablewam disk provided with a single cam race for causing the engagement of totalizers in adding, subtotal taking, and reset total tahng operations; means operated by the cam disk to engage the tote-liners; a. manipulative device; and connections oper ated by the manipulative device tovadiust the m cam disk for any one of the said operations.

MST ma. 

